Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:Systematically investigating the scores of genes mutated in cancer to discern the real drivers from the inconsequential bystanders is a prerequisite for Precision Medicine but remains challenging. Here, we use CRISPR/Cas9-mediated somatic gene editing in a breast cancer mouse model to assess the transforming potential of 215 recurrent ‘long-tail’ breast cancer genes. Several core and accessory components of the COMPASS-like histone methylase complex, namely KMT2C, KDM6A and ASXL2 cooperated with PIK3CAH1047R mutation to accelerate mammary tumorigenesis in mice and to transform human breast epithelial cells. Mechanistically, mutations of these ‘EpiDrivers’ converged on enhancing the lineage conversion of basal cells to luminal cells prior to tumorigenesis, as well as an aberrant alveolar differentiation program in both luminal and basal cells. Overall, our work suggests that lactation mimicry is associated with the earliest steps of breast cancer.

Project description:Systematically investigating the scores of genes mutated in cancer to discern the real drivers from the inconsequential bystanders is a prerequisite for Precision Medicine but remains challenging. Here, we use CRISPR/Cas9-mediated somatic gene editing in a breast cancer mouse model to assess the transforming potential of 215 recurrent ‘long-tail’ breast cancer genes. Several core and accessory components of the COMPASS-like histone methylase complex, namely KMT2C, KDM6A and ASXL2 cooperated with PIK3CAH1047R mutation to accelerate mammary tumorigenesis in mice and to transform human breast epithelial cells. Mechanistically, mutations of these ‘EpiDrivers’ converged on enhancing the lineage conversion of basal cells to luminal cells prior to tumorigenesis, as well as an aberrant alveolar differentiation program in both luminal and basal cells. Overall, our work suggests that lactation mimicry is associated with the earliest steps of breast cancer.

Project description:Systematically investigating the scores of genes mutated in cancer to discern the real drivers from the inconsequential bystanders is a prerequisite for Precision Medicine but remains challenging. Here, we use CRISPR/Cas9-mediated somatic gene editing in a breast cancer mouse model to assess the transforming potential of 215 recurrent ‘long-tail’ breast cancer genes. Several core and accessory components of the COMPASS-like histone methylase complex, namely KMT2C, KDM6A and ASXL2 cooperated with PIK3CAH1047R mutation to accelerate mammary tumorigenesis in mice and to transform human breast epithelial cells. Mechanistically, mutations of these ‘EpiDrivers’ converged on enhancing the lineage conversion of basal cells to luminal cells prior to tumorigenesis, as well as an aberrant alveolar differentiation program in both luminal and basal cells. Overall, our work suggests that lactation mimicry is associated with the earliest steps of breast cancer.

Project description:Loss of epigenetic regulation disrupts lineage commitment and promotes breast cancer

Project description:Loss of epigenetic regulation disrupts lineage commitment and promotes breast cancer (RNA-Seq)

Project description:Loss of epigenetic regulation disrupts lineage commitment and promotes breast cancer (scATAC-Seq)

Project description:Loss of epigenetic regulation disrupts lineage commitment and promotes breast cancer (scRNA-Seq)

Project description:Elongation factor P (EF-P) is posttranslationally modified at a conserved lysyl residue by the coordinated action of two enzymes, PoxA and YjeK. We have previously established the importance of this modification in Salmonella stress resistance. Here we report that, like poxA and yjeK mutants, Salmonella strains lacking EF-P display increased susceptibility to hypoosmotic conditions, antibiotics, and detergents and enhanced resistance to the compound S-nitrosoglutathione. The susceptibility phenotypes are largely explained by the enhanced membrane permeability of the efp mutant, which exhibits increased uptake of the hydrophobic dye 1-N-phenylnaphthylamine (NPN). Analysis of the membrane proteomes of wild-type and efp mutant Salmonella strains reveals few changes, including the prominent overexpression of a single porin, KdgM, in the efp mutant outer membrane. Removal of KdgM in the efp mutant background ameliorates the detergent, antibiotic, and osmosensitivity phenotypes and restores wild-type permeability to NPN. Our data support a role for EF-P in the translational regulation of a limited number of proteins that, when perturbed, renders the cell susceptible to stress by the adventitious overexpression of an outer membrane porin.

Project description:Recurrent apnea with intermittent hypoxia is a major clinical problem in preterm infants. Recent studies, although limited, showed that adults who were born preterm exhibit increased incidence of sleep-disordered breathing and hypertension, suggesting that apnea of prematurity predisposes to autonomic dysfunction in adulthood. Here, we demonstrate that adult rats that were exposed to intermittent hypoxia as neonates exhibit exaggerated responses to hypoxia by the carotid body and adrenal chromaffin cells, which regulate cardio-respiratory function, resulting in irregular breathing with apneas and hypertension. The enhanced hypoxic sensitivity was associated with elevated oxidative stress, decreased expression of genes encoding antioxidant enzymes, and increased expression of pro-oxidant enzymes. Decreased expression of the Sod2 gene, which encodes the antioxidant enzyme superoxide dismutase 2, was associated with DNA hypermethylation of a single CpG dinucleotide close to the transcription start site. Treating neonatal rats with decitabine, an inhibitor of DNA methylation, during intermittent hypoxia exposure prevented oxidative stress, enhanced hypoxic sensitivity, and autonomic dysfunction. These findings implicate a hitherto uncharacterized role for DNA methylation in mediating neonatal programming of hypoxic sensitivity and the ensuing autonomic dysfunction in adulthood.